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eego mylab

The new frontier in multimodal brain research. With up to 16 kHz sampling rate, 256 EEG channels and unique software features, eego mylab gives you an unprecedented in-depth understanding of the human brain.

eego rt

eego rt comprises everything needed for brain-computer interfaces (BCI), neurofeedback and related fields in a compact tablet-sized device, available in three standard configurations for direct access high-density EEG recordings of up to 16, 32 or 64 channels.

visor2

Our new and upgraded visor2 solutions integrate all the latest technologies for navigated rTMS, dual-coil navigation support, EEG-TMS recordings and pre-surgical evaluation for the highest quality in research and clinical procedures.

powerMAG ANT

The PowerMAG ANT 100 rTMS stimulator is designed for the specific needs of high-end TMS applications. Powerful high-frequency TMS as well as high precise single pulse and repetitive pulse protocols are combined in one single device.

waveguard original

waveguard connect

waveguard connect EEG caps are a perfect match for hospitals and institutes aiming at reliable EEG, maximum uptime and great patient comfort! For optimal signal quality, the electrodes are made of pure, solid tin.

How Early Does the Brain Distinguish between Regular Words, Irregular Words, and Pseudowords during the Reading Process? Evidence from Neurochronometric TMS

Cognitive theories on reading propose that the characteristics of written stimuli determine how they are processed in the brain. However, whether the brain distinguishes between regular words, irregular words, and pseudowords already at an early stage of the reading process is still subject to debate. Here we used chronometric TMS to address this issue. During the first 140 msec of regular word, irregular word, and pseudoword reading, TMS was used to disrupt the function of the ventral occipitotemporal, posterior middle temporal, and supramarginal gyri, which are key areas involved in orthographic, semantic, and phonological processing, respectively. Early TMS stimulation delivered on posterior middle temporal and supramarginal gyri affected regular and irregular word, but not pseudoword, reading. In contrast, ventral occipitotemporal disruption affected both word and pseudoword reading. We thus found evidence for an early distinction between word and pseudoword processing in the semantic and phonological systems, but not in the orthographic system.